Owing to their high-power density, long life, and environmental compatibility, supercapacitors are emerging as one of the promising storage technologies, but with challenges around energy and power requirements for specific applications. This book focusses on supercapacitors including details on classification, charge storage mechanisms, related kinetics, and thermodynamics. Materials used as electrodes, electrolytes, and separators, procedures followed, characterization methods, and modeling are covered, along with emphasis on related applications.

Features:



Provides an in-depth look at supercapacitors, including their working concepts and design
Reviews detailed explanation of various characterization and modeling techniques
Give special focus to the application of supercapacitors in major areas of environmental as well as social importance
Covers cyclic voltammetry, charging–discharging curves, and electrochemical impedance spectroscopy as characterization techniques
Includes a detailed chapter on historical perspectives on the evolution of supercapacitors

This book is aimed at researchers and graduate students in materials science and engineering, nanotechnology, chemistry in batteries, and physics.